Calibration and Performance Evaluation of Miniature Ultrasonic Hydrophones Using Time Delay Spectrometry

Abstract: Digital machines-computers-offer many advantages in communications and information processing. They can accomplish computations at high speed, and they can store and rapidly access vast amounts of information. Despite this sophistication, they are not adept at communicating with humans in a way humans find convenient-namely, by natural spoken language. Computers traditionally prefer the special symbols of compilers and assemblers typically communicated via a typewriter keyboard and a printed display. But, if t… Show more

“…The hydrophone was calibrated in the frequency range 0.25-20 MHz using a TDS approach described in [33][34][35]. In the vicinity of 1 MHz, the sensitivity of the hydrophone was about 0.255 lV/Pa.…”

“…The B & K8103 hydrophone was calibrated in the frequency range 0.1 Hz to 200 kHz and the TC4308 was calibrated from 10 kHz to 1 MHz. These hydrophones were also independently calibrated using Time Delay Spectrometry technique [33][34][35]. At 20 kHz, the sensitivity of the B & K hydrophone was À211 dB re 1 V/lPa, whereas that of TC4038 was À225 dB re 1 V/ lPa.…”

In vitro ultrasound-mediated leakage from phospholipid vesicles

“…The hydrophone was calibrated in the frequency range 0.25-20 MHz using a TDS approach described in [33][34][35]. In the vicinity of 1 MHz, the sensitivity of the hydrophone was about 0.255 lV/Pa.…”

“…The B & K8103 hydrophone was calibrated in the frequency range 0.1 Hz to 200 kHz and the TC4308 was calibrated from 10 kHz to 1 MHz. These hydrophones were also independently calibrated using Time Delay Spectrometry technique [33][34][35]. At 20 kHz, the sensitivity of the B & K hydrophone was À211 dB re 1 V/lPa, whereas that of TC4038 was À225 dB re 1 V/ lPa.…”

In vitro ultrasound-mediated leakage from phospholipid vesicles

“…If we define the hydrophone 0885-3010/88/0300-0162$01 .OO 0 1988 IEEE pressure sensitivity as M j , where Mf = U( r, r ) / p ( r , r ) or p ( r , t ) = v( r , r ) / M f , ( 2 ) then the time-averaged intensity I ( r ) becomes…”

“…INTRODUCTION 0 F VARIOUS techniques to calibrate miniature hydrophones for ultrasound exposimetry measurements, including reciprocity and comparison techniques [l], [2], the planar scanning technique as described in [3]- [6] is perhaps the most commonly performed. In the planar scanning technique, beam profiles of a source transducer are measured in the far field using the hydrophone to be calibrated, from which an expression proportional to the total output power of the source can be obtained.…”

The influence of nonlinear fields on miniature hydrophone calibration using the planar scanning technique

“…Regarding sensitivity phase calibration, the literature reports some approaches claiming the merit of being able to disclose the sensitivity phase as well, although the reported methods are mainly of comparison, instead of absolute, i.e., there is a need of a calibrated device to depict the hydrophone phase sensitivity. These approaches rely on time delay spectrometry [10][11][12][13][14][15][16] or optical reference hydrophone [17][18][19][20].…”

Primary reciprocity-based method for calibration of hydrophone magnitude and phase sensitivity: Complete tests at frequencies from 1 to 7MHz